Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The effects of some possible inhibitors of ectonucleotidases on the breakdown of extracellular ATP by strips of guinea-pig urinary bladder were investigated. 2. Suramin and ethacrynic acid (10 mM) both inhibited ATP breakdown significantly, and difluorodinitrobenzene (10 mM) inhibited it slightly whereas N-ethylmaleimide, adenosine 5'-(gamma-thiotriphosphate) (ATP-gamma-S) and reactive blue-2 (10 mM) were without effect. 3. The inhibitory effects of suramin on ATP breakdown were non-competitive. 4. Ethacrynic acid (1 mM) irreversibly inhibited contractions of the guinea-pig bladder induced by ATP, substance P, histamine, non-adrenergic, non-cholinergic nerve stimulation or KCl, whereas suramin (100 microM) had no inhibitory effect. 5. The results suggest that suramin might provide a starting point for the design of selective inhibitors of ectonucleotidases.
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PMID:The effects of some possible inhibitors of ectonucleotidases on the breakdown and pharmacological effects of ATP in the guinea-pig urinary bladder. 254 53

There is growing evidence for several different roles for purines in the control of blood flow. (1) Adenosine 5'-triphosphate (ATP) acts as a cotransmitter with noradrenaline and neuropeptide Y released from sympathetic perivascular nerves. In most vessels it acts via P2x-purinoceptors to produce vasoconstriction synergistically with alpha-adrenoceptor activation, while in some coronary vessels it appears to act via P2Y-purinoceptors to produce vasodilatation in concert with beta-adrenoceptor activation. (2) Adenosine, via P1-purinoceptors, acts as a prejunctional modulator of transmitter release from perivascular nerves; it also acts directly on vascular smooth muscle to produce vasodilatation. (3) ATP is stored in and released from vascular endothelial cells (including those from the coronary bed) during changes in blood flow or during hypoxia, and acts via P2Y-purinoceptors on endothelial cells to release endothelium-derived relaxing factor, resulting in vasodilatation. (4) ATP may be released together with substance P and calcitonin gene-related peptide from some sensory nerves during 'axon-reflex' activity when antidromic impulses pass down collaterals supplying blood vessels. (5) Finally, there is evidence to suggest that ATP released from intrinsic (non-sympathetic) neurones in the airways and heart has potent actions on the resistance vessels.
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PMID:Vascular control by purines with emphasis on the coronary system. 269 33

The neuromodulatory action of adenosine and ATP was investigated in isolated guinea pig bronchial strip chain preparations contracted with electrical field stimulation. The tissues were placed in organ baths containing physiological salt solution and stimulated at 8-Hz frequency, 0.5-ms pulse duration, and 30 V (approximately 100 mA) for 5 s. Electrical field stimulation evoked a biphasic contraction of bronchial muscle, consisting of an initial contraction followed by a sustained contraction, which was mediated by intramural cholinergic and noncholinergic nerve stimulations, respectively. Adenosine, at concentrations greater than M, caused a concentration-dependent inhibition in the height of the noncholinergically mediated contraction, accompanied by a very weak inhibition on the cholinergically mediated response. ATP (10(-5) to 3 x 10(-3) M) also produced a similar inhibitory effect on the noncholinergically mediated contraction, but the inhibitory potency was less than that of adenosine. The inhibitory response to adenosine was enhanced by the pretreatment with dipyridamole (2 x 10(-6) M) but antagonized with aminophylline (10(-5) M). Contractions of bronchial muscle evoked by exogenous acetylcholine (2 x 10(-6) M) or substance P (2 x 10(-7) M) were significantly inhibited by the adenosine (3 x 10(-4) M) pretreatment. These data suggest that in isolated guinea pig bronchi adenosine selectively inhibits noncholinergic neurotransmission through prejunctional P1-purinoceptors.
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PMID:Adenosine selectively inhibits noncholinergic transmission in guinea pig bronchi. 274 77

The effects of extracellular ATP on intracellular free calcium concentration [( Ca2+]i), phosphatidylinositol (PtdIns) turnover, amylase release and Ca2+-activated membrane currents were examined in isolated rat parotid acinar cells and contrasted with the effects of receptor agonists known to activate phospholipase C. ATP was more effective than muscarinic and alpha-adrenergic agonists and substance P as a stimulus for elevating [Ca2+]i (as measured with quin2). The ATP effect was selectively antagonized by pretreating parotid cells with the impermeant anion-exchange blocker 4,4'-di-isothiocyano-2,2'-stilbenedisulphonate (DIDS), which also inhibited binding of [alpha-32P]ATP to parotid cells. By elevating [Ca2+]i, ATP and the muscarinic agonist carbachol both activated Ca2+-sensitive membrane currents, which were measured by whole-cell and cell-attached patch-clamp recordings. However, there were marked contrasts between the effects of ATP and the receptor agonists linked to phospholipase C, as follows. (1) Although the combination of maximally effective concentrations of carbachol, substance P and phenylephrine had no greater effect on [Ca2+]i than did carbachol alone, there was some additivity between maximal ATP and carbachol effects. (2) Intracellular dialysis with guanosine 5'-[beta-thio]diphosphate did not block activation of ion channels by ATP, but did block channel activation by the muscarinic agonist carbachol. This suggests that a G-protein is involved in the muscarinic response, but not in the response to ATP. (3) Despite its pronounced effect on [Ca2+]i, ATP had little effect on PtdIns turnover in these cells, in contrast with the effects of carbachol and other Ca2+-mobilizing agents. (4) Although ATP was able to stimulate amylase release from parotid acinar cells, the stimulation was only 33 +/- 9% of that obtained with phospholipase C-linked receptor agonists. These differences suggest that ATP increases [Ca2+]i through specific activation of a pathway which is distinct from that shared by the classical phospholipase C-linked receptor agonists.
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PMID:Extracellular ATP increases free cytosolic calcium in rat parotid acinar cells. Differences from phospholipase C-linked receptor agonists. 284 7

The review deals with the critical analysis of the recent publications showing an important role of the endothelium in the mechanism of vasodilation caused by endogenous agents (acetylcholine, bradykinin, substance P, ATP, histamine, thrombin) and pharmacological agents (clonidine, hydralazine, mellitin, calcium ionophore A 23187). The mechanism of the endothelium-dependent vasodilatation is based on the release of the endothelium-derived relaxant factor (EDRF). In 1987-1988 it was shown that in some cases EDRF is NO. The experimental evidence suggests that EDRF (NO) may directly activate guanylate cyclase that results in vascular smooth muscle relaxation due to cAMP accumulation. The possible physiological and pathophysiological significance of the endothelium-dependent vascular responses is discussed.
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PMID:[The pharmacology of endothelium-dependent vascular reactions]. 285 Feb 22

In vivo experiments were performed in autoperfused hindlimbs of rabbits to investigate the role of endothelium-mediated vasomotion in resistance-sized vessels. The flow responses to the vasodilators acetylcholine (ACh), ATP, and substance P (SP), all of which have been shown to act in an endothelium-dependent manner in large conduit arteries, were studied before and after exposure of the hindleg vasculature to gossypol (a potent inhibitor of endothelium-mediated vasodilation in vitro). The flow responses to adenosine (ADO), nitroglycerin (GTN), and prostaglandin E2 (PGE2), which induce relaxation by a direct effect on vascular smooth muscle, were tested in the same manner. All vasodilators induced dose-dependent increases in femoral flow up to two- to threefold when administered intra-arterially. After gossypol, the flow responses to the endothelium-dependent compounds (ACh, ATP, and SP) were severely reduced (by 88 +/- 3%, P less than 0.01) or sometimes were converted to constrictions (ATP). The flow increases induced by ADO, PGE2, and GTN remained largely unaffected. Sham treatment (gossypol solute only), exposure to indomethacin (10 microM), and ganglionic blockade had no differential effect on the flow responses. The selective action of gossypol in suppressing the flow responses to the endothelium-dependent compounds ACh, ATP, and SP is consistent with a vasomotor role for endothelial cells in resistance-sized vessels in vivo.
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PMID:Selective inhibition of endothelium-dependent dilation in resistance-sized vessels in vivo. 288 20

The evidence for, and possible roles of, inhibitory and excitatory non-adrenergic, non-cholinergic (NANC) nerves supplying smooth muscle, and the effects of putative transmitter candidates are considered for each of three main regions of the upper gastrointestinal tract: (A) the smooth muscle portion of the oesophagus and the oesophagogastric junction, (B) the stomach (fundus, body and antrum) and gastroduodenal junction and (C) the biliary tract and choledochoduodenal junction. The major points from human tissues are as follows: 1. Inhibitory (NANCI) nerves appear to be present in the muscularis externa of oesophagus, stomach and duodenum, with greater density in the circular than in the longitudinal muscle. 2. NANCI nerves are present in high density at the oesophagogastric and choledochoduodenal junctions. They may also be present at the gastroduodenal junction. The gall-bladder may have a very sparse NANCI innervation. 3. Excitatory (NANCE) nerves appear to be present throughout the upper gastrointestinal tract. 4. Many candidates need at present to be considered for the role of NANCE transmitter(s) in the human upper gastrointestinal tract but substance P still seems a likely contender for this role. 5. Fewer candidates are at present generally available for the role of NANCI transmitter(s), with VIP and ATP being leading contenders. However, in the human upper gastrointestinal tract the evidence for ATP is not good, and VIP still remains the favourite candidate except in the gall-bladder, where its role remains to be elucidated.
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PMID:Novel autonomic neurotransmitters and upper gastrointestinal function. 290 54

The intracellular adenine nucleotide pool of rabbit iris-ciliary body was labelled by uptake of 3H-adenine in vitro. A variety of agents were tested for their ability to stimulate or inhibit the incorporation of radioactivity into cyclic AMP formed from ATP labelled with 3H-adenine. Isoproterenol, vasoactive intestinal peptide, forskolin, and prostaglandin E2 stimulated incorporation of label 3-10-fold in 15-20 min compared with paired tissues not treated with hormone, whereas histamine, serotonin, substance P, and bradykinin were inactive. Clonidine, alpha-methylnorepinephrine, and dopamine decreased the rate of incorporation of label into the cyclic-AMP pool in tissues that showed high spontaneous basal rates. In low-basal tissues these drugs were inactive by themselves but clonidine and alpha-methylnorepinephrine blocked the stimulation effected by isoproterenol. The findings indicate that several receptor-coupled adenylate cyclase systems are present in ICB and that dual adrenergic control of adenylate cyclase through positive and negative coupling of adrenergic receptors probably occurs. The negatively coupled adrenergic receptors appear to be similar to the alpha 2-subclass of adrenergic receptor described in other tissues. These observations suggest a role for the large number of alpha 2-adrenergic-binding sites found in albino rabbit iris-ciliary body by ligand binding assays.
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PMID:Drug responses of adenylate cyclase in iris-ciliary body determined by adenine labelling. 298 54

In the last few years, experimental evidence has accumulated which suggests a substantial role for the endothelium in the control of vascular tone. Endothelium-dependent dilatations have been demonstrated in various arteries of numerous mammalian species including man. Among the stimuli which elicit endothelium-dependent dilatation are such varying stimuli as increases in blood flow and hypoxia, as well as endogenous (acetylcholine, ATP, ADP, bradykinin, substance P) and pharmacological agents (calcium ionophore A 23187, ergometrine, hydralazine, melittin). The functional importance of endothelium-dependent dilatation is emphasized by the fact that the direct vasoconstrictor effects of some of these substances (acetylcholine, histamine, norepinephrine, serotonin) on vascular smooth muscle is attenuated or even reversed by their simultaneous stimulatory effect on endothelial cells, resulting in the release of a vasodilator signal. Bioassay experiments have shown that a humoral vasodilator agent with a biological half-life in the range of seconds is released from the endothelium (native or cultured) during stimulation with acetylcholine, ATP and calcium ionophore. Experimental data are presented, which suggest that EDRF may act by direct stimulation of guanylate cyclase, resulting in smooth muscle relaxation due to increased smooth muscle cyclic GMP levels. The chemical nature of this nonprostaglandin endothelium-derived relaxant factor (EDRF) is still not known. The possible physiological and pathophysiological significance of endothelium-dependent dilatation in situ is discussed. Special attention is paid in this context to the potential role of EDRF activity in coronary vasomotor control.
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PMID:The role of endothelium in the control of vascular tone. 300 Mar 43

In the last few years, experimental evidence has accumulated which suggests a substantial role for the endothelium in the control of vascular tone. Endothelium-dependent dilations have been demonstrated in various arteries of numerous mammalian species including man. Among the stimuli which elicit endothelium-dependent dilatation are such different stimuli as increases in blood flow and hypoxia as well as endogenous (acetylcholine, ATP, ADP, bradykinin, substance P) and pharmacological agents (calcium ionophore A 23 187, ergometrine, hydralazine, melittin). The functional importance of endothelium-dependent dilatation is emphasized by the fact that the direct vasoconstrictor effects of some of these substances (acetylcholine, histamine, norepinephrine, serotonin) on vascular smooth muscle is attenuated or even reversed by their simultaneous stimulatory effect on endothelial cells resulting in the release of a vasodilator signal. Bioassay experiments have shown that a humoral vasodilator agent with a biological half-life in the range of seconds is released from the endothelium (native or cultured) during stimulation with acetylcholine, ATP and calcium ionophore. Experimental data are presented which suggest that EDRF may act by direct stimulation of guanylate cyclase, resulting in smooth muscle relaxation due to increased smooth muscle cyclic GMP levels. The chemical nature of this nonprostaglandin endothelium-derived relaxant factor (EDRF) is still not known. The possible physiological and pathophysiological significance of endothelium-dependent dilatation in situ is discussed. Special attention is paid in this context to the potential role of EDRF activity in coronary vasomotor control.
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PMID:[Regulation of vascular tone by the endothelium]. 300 57


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